Sharp GL381, GL380 Datasheet

GL380/GL381

GL380/GL381

High Output, φ 3mm Resin
Mold Type Infrared Emitting
Diode

■ Features

1. High output
(IE: MIN. 4.5mW/sr at IF= 50mA, GL380
(I

: MIN. 8.5mW/sr at IF= 50mA, GL381

E

2. Compact φ 3mm resin mold package

3. Narrow beam angle (∆θ :TYP. ± 13˚

)

)
)

■ Outline Dimensions

φ 3.8

± 0.15

φ 3.0

MAX.

0.8

0.6

■ Applications

1. Floppy disk drives

2. Optoelectronic switches

3. Infrared applied systems

■ Absolute Maximum Ratings

(

Ta = 25˚C

Parameter Symbol Rating Unit

R

60 mA

1A
6V

Forward current I

*1

Peak forward current I
Reverse voltage V

F

FM

Power dissipation P 150 mW
Operating temperature T
Storage temperature T

*2

Soldering temperature T

*1 Pulse width 100µs, Duty ratio = 0.01
*2 For 3 seconds at the position of 2.6mm from the bottom face of resin package.

<=

opr

stg

sol

- 25 to + 85

- 40 to + 85
260 ˚C

)

˚C
˚C

2 - 0.5

(

2.54

+ 0.15

3.6

- 0.1

)

- 0.1

+ 0.15

1

2

2- 0.5

■ Electro-optical Characteristics

Parameter Symbol Conditions MIN. TYP. MAX. Unit
Forward voltage V
Peak forward voltage V
Reverse current I

*3

Radiant intensity

GL380

FM

R

I

E

Peak emission wavelength λ
Half intensity wavelength ∆λ I
Terminal capacitance C
Response frequency f

C

Half intensity angle ∆θ I

*3 IE: Value obtained by converting the value in power of radiant fluxes at the solid angle of 0.01 sr (steradian) the

direction of mechanical axis of the the lens portion into 1 sr of all those emitted from the light emitting diode.

IF= 50mA - 1.3 1.5 V

F

IFM= 0.5A - 2.2 3.5 V
VR=3V - - 10 µA

IF= 50mA
IF= 5mA - 950 - nm

P

= 5mA - 45 - nm

F

VR= 0, f= 1MHz - 70 - pF

t

4.5 11 -

8.5 20 -GL381

- 300 - kHz

= 20mA - ± 13 -

F

(

Unit : mm

Light blue transparent
epoxy resin (GL380
Blue transparent epoxy resin (GL381

± 0.2

5.3

± 1.0

14.2

MIN.

0.5

* Tolerance : ± 0.2mm

)

1

2

1 Anode
2 Cathode

(

Ta= 25˚C

)

mW/sr

˚

)

)

“ In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs,

data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.”

GL380/GL381

Fig. 1 Forward Current vs.

Ambient Temperature

120

100

)
mA

80

(

F

60

40

Forward current I

20

0

--25

0 25 12550 75 85

Ambient temperature T

Fig. 3 Spectral Distribution

100

80

)
%

(

60

40

a

(˚C

100

)

IF= 5mA

= 25˚C

T

a

Fig. 2 Peak Forward Current vs. Duty Ratio

5000

)
mA

(

1000

FM

500

100

50

Peak forward current I

10

-4

10

10

-3

10

Duty ratio

Pluse width

100µs

<=
T

= 25˚C

a

-2

-1

10

1

Fig. 4 Peak Emission Wavelength vs.

Ambient Temperature

)
nm

(

1000

975

p

950

IF= const.

Relative radiant intensity

20

0

880 900 920 940 960 980

Wavelength λ(nm

1000 1020 1040

)

Fig. 5 Forward Current vs. Forward Voltage

500

= 75˚C

T

200
100

)
mA

(

F

Forward current I

a

50˚C

50

20
10

5

2
1

0

0.5 1.0 1.5 2.0 2.5
Forward voltage VF (V

25˚C
0˚C

20˚C

3.0

3.5

)

925

Peak emission wavelength λ

900

-25

025

Ambient temperature Ta (˚C

50 75 100

Fig. 6 Relative Radiant Flux vs.

Ambient Temperature

20

10

5

2

1

0.5

Relative radiant flux

0.2

0.1

-25

0255075100

Ambient temperature T

)

I

=

F

const.

)

(˚C

a